Other Corynebacteria

PART III  Etiologic Agents of Infectious Diseases SECTION A  Bacteria

131 Other Corynebacteria Denise F. Bratcher

Corynebacterium species, which are recognized as members of the normal human flora, are isolated from the skin, mucous membranes, and gastrointestinal tract. Although frequently dismissed as contaminants in clinical specimens, corynebacteria are recognized more often as pathogens, particularly in immunocompromised people.1,2 Infections caused by Corynebacterium species have occurred predominantly among patients with prosthetic and other medical devices. Currently, 88 valid studies have been published on Corynebacterium species, and further definition of the pathogenic role of these species in human infections and of the mechanisms of pathogenesis continues to be elucidated. Many case reports have questionable validity because of the limitations of commercial identification systems, use of inappropriate identifica-

tion methods, significant changes in taxonomy, and lack of distinction between colonization and infection.1 Identification of significant clinical isolates of Corynebacterium spp. and antimicrobial susceptibility and synergy testing are warranted; identification is enhanced by the combination of biochemical testing using commercially available panels, sequence-based methods using 16S (small subunit) ribosomal RNA (rRNA) gene sequencing, and matrix-assisted laser desorption ionization–time of flight (MALDITOF) mass spectrometry.3 Characteristics of reported infections caused by Corynebacterium species are outlined in Table 131.1. Corynebacterium infections among children rarely cause severe symptoms or mortality.4

TABLE 131.1  Characteristics of Infection and Habitats of Frequently Reported Corynebacterium Species Infection Species C. afermentans

Normal Flora Human Animal

C. amycolatum

C. bovis

Animal

C. coyleae

C. glucuronolyticum

778

Normal Host

Compromised Hosta

Brain abscess Hepatic abscess

BSI Endocarditis Pulmonary infections

Septic arthritis Endocarditis

BSI Endocarditis Peritonitis

Skin infection Meningitis Mastoiditis

BSI Endocarditis Glomerulonephritis Meningitis Septic arthritis Ascites Sepsis Skin/soft tissue infection

Human Animal

Prostatitis Genitourinary infections

Children

Antibiotic Susceptibilityb

Unusual Features

c

33–37

MDR

BSI

BSI

References

S: Vanc, Teico, V: Amg, Dap, Lin, Tet R: MDRc

Often nosocomial

1,4,24– 26,38–40

S: Ery, Rif V: Pcn

Causes rancidity of milk

1,41,42

S: Pcn, Vanc, Tet, Rif, Lin V: Ery R: MDRc

Diagnostic procedures main risk; commercial identification challenging

43

S: Pcn, Ceph, Amg, Rif, Vanc V: FQ, Ery, Tet R: MDRc

44–46

Other Corynebacteria

131

TABLE 131.1  Characteristics of Infection and Habitats of Frequently Reported Corynebacterium Species—cont’d Infection Species

Normal Flora

C. jeikeium

Human

Normal Host BSI Cardiac device infections Otitis media Septic arthritis

C. macginleyi

Compromised Hosta

Children

Antibiotic Susceptibilityb

Abscess BSI Endocarditis Enteritis Meningitis Osteomyelitis Peritonitis Pneumonia Pyelonephritis Septic arthritis Skin infections Transverse myelitis Urinary tract infection Ventriculitis

Abscess BSI Endocarditis Meningitis Pulmonary infection

S: Vanc, Lin, Tig V: Dap, Ery, FQ, Rif, Tet R: MDRc

Catheter-related infection Conjunctivitis Endocarditis Endophthalmitis Keratitis Sepsis Urinary tract infection

S: Multiple V: FQ R: Ery

Almost exclusively from eye specimens

Unusual Features

References

Most common cause of diphtheroid endocarditis; removal of prosthetic device usually required for cure; major nosocomial pathogen

1,4,6–22, 47–59

60–67

C. minutissimumd

Human

BSI Cellulitis Erythrasma (polymicrobial) Meningitis

BSI Abscess Endocarditis Erythrasma Peritonitis

Erythrasma Pyelonephritis

S: Ery, Tet, T/S, Vanc V: 2G Ceph, Chloro, Pcn R: MDRc

C. propinquum

Human

Endocarditis

Pulmonary infection

Endocarditis

S: Pen, Ceph, T/S R: Clin

C. pseudodiphtheriticum Human (Corynebacterium hofmannii)

Conjunctivitis/ keratitis Discitis Endocarditis Lymphadenitis Pharyngitis (membranous) Pulmonary infections Skin infections

BSI Endocarditis Peritonitis Pulmonary infections Septic arthritis Surgical site infection Urinary tract infectiond

BSI Endocarditis Lymphadenitis Otitis media Pharyngitis (membranous) Pulmonary infections Surgical site infection Urinary tract infection

S: Amg, Vanc, Lin, Rif, Tet V: 1G & 2G Ceph, Pcn, Chloro, Clin, FQ, Tet, Tig, T/S R: MDRc

Commensal of human nasopharynx; Gram staining shows parallel rows of bacilli

1,78–92

C. pseudotuberculosis (Corynebacterium ovis)

Animal

Lymphadenitis Pneumonia

Abscess Lymphadenitis Pneumonia

Lymphadenitis Septic arthritis

S: Amg, Ery, Clin, Pcn, Tet, Vanc,e Chloro, Rif

Produces dermonecrotic toxin; usually associated with animal contact

1,93,94

C. striatumd

Human

Endocarditis BSI Central line infection Chorioamnionitis Meningitis Osteomyelitis Peritonitis Pulmonary infections Septic arthritis Skin/soft tissue infection

BSI Ventriculitis

S: Vanc, Teico, Imip, Tig V: Clin, Dapto, Ery, Lin, Pcn, Amg, Tet R: MDRc

Nosocomial infections

1,4,17,95– 114

Involved skin fluoresces coral red with Wood light

1,68–75

76–77

Continued

779

PART III  Etiologic Agents of Infectious Diseases SECTION A  Bacteria

TABLE 131.1  Characteristics of Infection and Habitats of Frequently Reported Corynebacterium Species—cont’d Infection Species

Normal Flora

C. ulcerans

Animal

C. urealyticum (group D2)

Human

C. xerosisd

Human

Normal Host Pharyngitis (membranous) Sinusitis Skin ulcers

Endocarditis

Compromised Hosta

Children

Antibiotic Susceptibilityb

Pharyngitis Pneumonia Pulmonary nodules

Pharyngitis (membranous) Otitis media

BSI Endocarditis Osteomyelitis Pericarditis Pneumonia Urinary tract infection (encrusted) Wound infection BSI Central nervous system infections Endocarditis Keratitis (postoperative) Osteomyelitis Peritonitis Pulmonary infections Septic arthritis

Unusual Features

References

S: multiple drugs; Ery (drug of choice)

Produces exotoxins of C. diphtheriae and C. pseudotuberculosis; associated with raw milk; treatment includes antitoxin

1,15–125

Soft tissue infection Urinary tract infection

S: Teico, Vanc V: FQ, Rif, Ery, Tet R: MDRc

Urease activity produces alkaline urine; leads to crystal formation

1,126–132

BSI Endocarditis Meningitis Pericarditis Ventriculitis

S: Vanc, 3G Ceph, FQ V: Amg, Clin, Ery, Pcn

Nosocomial infections

1,133–140

a

Compromised hosts include immunodeficient patients, neutropenic patients, those with indwelling devices, and postsurgery and trauma patients. There are no reports of controlled clinical trials using different antimicrobial agents in the treatment of infections with Corynebacterium species. Notation is based on antimicrobial susceptibilities reported in cases and laboratory evaluations. c MDR: Multidrug resistance has been reported; the only drugs active against these strains are glycopeptides, linezolid, quinupristin/dalfopristin, daptomycin, and tigecycline. d Some reports likely represent misidentification of Corynebacterium amycolatum or another Corynebacterium strain.1 e Surgical excision after parenteral antibiotic therapy is necessary for cure. BSI, bloodstream infection; Amg, aminoglycosides; Ceph, cephalosporins; 1G Ceph, first-generation cephalosporins; 2G Ceph, second-generation cephalosporins; 3G Ceph, third-generation cephalosporins; Chloro, chloramphenicol; Clin, clindamycin; Dapto, daptomycin; Ery, erythromycin; Imip, imipenem; Lin, linezolid; Pcn, penicillin; FQ, fluoroquinolones; R, resistant; Rif, rifampin; S, susceptible; Teico, teicoplanin; Tet, tetracyclines; Tig, tigecycline; T/S, trimethoprim-sulfamethoxazole; V, variable; Vanc, vancomycin. b

CORYNEBACTERIUM JEIKEIUM Corynebacterium jeikeium, formerly known as Centers for Disease Control and Prevention (CDC) group JK, was identified as a distinct group in 1976, and a pathogenic role in endocarditis after cardiovascular surgery has been noted since 1963. C. jeikeium increasingly has been identified in association with a variety of clinical entities, predominantly in immunocompromised people, and it is recognized as a significant nosocomial pathogen. C. jeikeium is the most frequently recovered medically significant corynebacterial species in patients in intensive care units.5 Only pathogenic for humans, C. jeikeium is found in soil and water and is part of normal human skin flora. The colonization rate increases with hospitalization; it has been reported in hospital personnel and in up to 40% of hospitalized patients, especially on the skin of the perirectal area, groin, and axilla.6 Infection is thought to occur when C. jeikeium invades through mucosal breaks and colonizes prosthetic devices. Risk factors for C. jeikeium infection include prolonged hospitalization; profound, extended granulocytopenia; multiple or prolonged courses of antibiotic therapy; disruption of mucocutaneous barriers; and presence of a medical device. In one study C. jeikeium was recognized as the most frequent cause of bloodstream infection (BSI) among patients who had received a bone marrow transplant6; BSI also has been reported among immunocompetent and immunosuppressed patients. C. jeikeium is the most common cause of diphtheroid endocarditis of prosthetic valves,7 and it also can infect native valves. C. jeikeium infection is the corynebacteria infection

780

most likely to require valve replacement.8 Other infections attributed to C. jeikeium include skin and wound infections, catheter-related infection, enteritis, meningitis, osteomyelitis, peritonitis, pneumonia, prosthetic joint infection, pyelonephritis, and liver abscess in a patient with AIDS.9–17 Several infections caused by C. jeikeium have been reported in children, including meningitis associated with a ventriculoperitoneal shunt, BSI, endocarditis, and a localized skin abscess at a puncture site.18–20 Most cases were associated with immunosuppression, a medical device, or trauma. C. jeikeium is a nonmotile, gram-positive bacillus that can appear to be coccobacillary. Growth appears as discrete, pinpoint, smooth white colonies that take on a characteristic metallic sheen after 24 to 48 hours of incubation. The bacterium ferments glucose but does not produce urease or reduce nitrate. Identification frequently is confirmed on the basis of resistance to many antibiotics, including β-lactams, aminoglycosides, erythromycin, and tetracycline. Vancomycin generally is the most active antibiotic against C. jeikeium and is the drug of choice for the treatment of these infections, although vancomycin resistance has been reported.21 Telithromycin, linezolid, and quinupristin/dalfopristin have good in vitro activity.22 Although some have suggested that removal of a central venous catheter may not always be necessary, removal of involved prosthetic devices usually is required for cure. Corynebacterium species form biofilms that are refractory to vancomycin therapy.6,23 Prevention of nosocomial transmission of C. jeikeium depends on meticulous handwashing and aseptic technique. Further elucidation of the modes of transfer of C. jeikeium in healthcare settings may suggest additional methods of infection control.

OTHER CORYNEBACTERIUM SPECIES The frequency of corynebacteria infections has been increasing over the past 20 years; in addition, many new Corynebacterium species have been established, and more new identifications are expected.1 Corynebacteria are diverse morphologically, metabolically, and structurally. Multiple changes and improvements in the taxonomic framework for coryneform bacteria have facilitated clinical associations. C. amycolatum, a species established in 1988, probably accounted for many previously reported infections that had been misidentified as C. kutscheri, C. minutissimum, C. striatum, and C. xerosis.1 C. amycolatum, one of the species most commonly isolated from clinical specimens,1 has been reported as a cause of septicemia in a patient with diabetes24 and a premature infant,25 and also as a cause of pyogenic arthritis.26 C. amycolatum typically is resistant to multiple antibiotics but is susceptible to vancomycin and teicoplanin. Other newly identified Corynebacterium spp. have been reported in association with human disease in rare cases; these include C. accolens, C. afermentans, C. argentoratense, C. auris, C. falsenii, C. glucuronolyticum, C. kroppenstedtii, C. lipophiloflavum, C. macginleyi, C. propinquum, C. resistens, C. riegelli, C. simulans, C. tuberculostearicum, and C. ureicelerivorans.27–30 Current methods of identification of Corynebacterium species, especially those relying on commercial identification systems, may be inadequate because a limited number of species are represented. Similarly, numerous differences within reference strains of Corynebacterium species have been noted.1 Referral of isolates to a reference laboratory may be necessary. Standardized guidelines for susceptibility testing of Corynebacterium species were updated in 2010 and 2012.31,32 Variable susceptibility to antimicrobial agents mandates specific testing of each clinical isolate. In general, Corynebacterium species are susceptible to vancomycin and linezolid.3 Vancomycin is recommended for empiric

Key Points: Corynebacterium Species • Corynebacterium species often are dismissed as contaminants in clinical specimens; however, they increasingly are recognized as pathogens, especially in immunocompromised people. • Newer molecular and protein fingerprinting methods of identification have led to clarification of the taxonomy of Corynebacterium species and have corrected some previous, misleading reports. • Corynebacterium species have been associated with a variety of infections; the propensity for certain infections varies by species. • Variable susceptibility of corynebacteria to antimicrobial agents, including some multidrug-resistant strains, requires specific susceptibility testing of each isolate.

therapy of suspected Corynebacterium infections. Multidrug-resistant strains have been identified, primarily C. jeikeium, C. striatum, and C. urealyticum. All references are available online at www.expertconsult.com.

KEY REFERENCES 1. Funke G, von Graevenitz A, Clarridge JE III, et al. Clinical microbiology of coryneform bacteria. Clin Microbiol Rev 1997;10:125. 2. Martins CAS, Faria LMD, Souza MC, et al. Microbiological and host features associated with corynebacteriosis in cancer patients: a five-year study. Mem Inst Oswaldo Cruz 2009;104:905. 3. Bernard K. The genus Corynebacterium and other medically relevant coryneform-like bacteria. J Clin Microbiol 2012;50:3152.

Other Corynebacteria

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Yoshitomi Y, Kohno S, Koga H, et al. Fatal pneumonia caused by Corynebacterium group JK after treatment of Staphylococcus aureus pneumonia. Intern Med 1992;31:930. 15. Wang CC, Mattson D, Wald A. Corynebacterium jeikeium bacteremia in bone marrow transplant patients with Hickman catheters. Bone Marrow Transplant 2001;27:445. 16. Tleyjeh IM, Qutub MO, Bakleh M, et al. Corynebacterium jeikeium prosthetic joint infection: case report and literature review. Scand J Infect Dis 2005;37:151. 17. Schiffl H, Mucke C, Lang SM. Exit-site infections by non-diphtheria corynebacteria in CAPD. Perit Dial Int 2004;24:454. 18. Keren G, Geva T, Bogokovsky B, et al. Corynebacterium group JK pathogen in cerebrospinal fluid shunt infection: report of two cases. J Neurosurg 1988;68:648. 19. Coyle MB, Lipsky BA. Coryneform bacteria in infectious diseases: clinical and laboratory aspects. Clin Microbiol Rev 1990;3:227. 20. Martino P, Micozzi A, Venditti M, et al. 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